Lightweight structural finish

ABSTRACT

A lightweight finish composition, method of production and a method of application are provided. The lightweight finish composition comprises a resin dispersion, alkali metal phosphate, alkylolammonium salt of a polyfunctional polymer, and lightweight aggregate such as silica spheres. The lightweight aggregate has a density and weight that is less than those of sand. The combination of alkali metal phosphate and alkylolammonium salt of a polyfunctional polymer stabilizes the lightweight finish composition by preventing the lightweight aggregate from absorbing water, after production of the lightweight finish composition.

BACKGROUND

Exterior insulation and finish systems (EIFS) are multi-layered exteriorwall systems that are used on both commercial buildings and homes. EIFStypically comprises the following components: insulation board made ofpolystyrene or polyisocyanurate foam, which is secured to the exteriorwall surface with a specially formulated adhesive and/or mechanicalattachment; a durable water-resistant base coat, which is applied on topof the insulation and reinforced with fiberglass mesh for addedstrength; and a usually textured and durable finish coat typicallyproduced using an acrylic co-polymer technology.

The finish coat composition usually contains in addition to theco-polymer an aggregate that is used for the appearance and durabilityof the finish coat composition. The coatings used as the outermost layerin EIFS systems are typically supplied in 5-gallon pails that weighabout 70 pounds each. The heavy weight of the pails slows down theproductivity of the workers during application of the finish.

To reduce the weight of these finish compositions the aggregatecomponent has been partially replaced with a lighter material to form alightweight finish. Lightweight finishes utilize naturally occurringaggregates such as perlite, hyperlite, vermiculite, expanded clay andpumice stone. Due to the high porosity, in the prior art these mineralshave been coated with silicone to prevent the absorption of water andthickening of the textured finish. However, if the light weightnaturally occurring aggregate is not completely coated, shelf lifeproblems can occur due the excessive viscosity of the packaged finishcomposition.

Therefore, it is desirable to provide a finish composition which islightweight but does not become excessively viscous after addition ofthe lightweight aggregate. Additionally, it would be desirable to avoidthe extra production step of coating the lightweight aggregate and thereliance on a uniform and complete coating of the lightweight aggregateto avoid substantial thickening of the finish coating.

SUMMARY

A lightweight finish composition is provided which comprises lightweightaggregate wetted out by the combination of an alkali metal phosphate andan alkylolammonium salt of a polyfunctional polymer, and a resindispersion wherein the combination of an alkali metal phosphate and analkylolammonium salt of a polyfunctional polymer provides stability tothe lightweight finish composition by wetting out the lightweightaggregate such that one week after producing the lightweight finishcomposition the viscosity as measured in paste units (PU) does notmeasure more than about 140 paste units and does not deviate by morethan about 7 paste units in subsequent measurements.

A method of producing a lightweight finish composition is provided whichcomprises combining lightweight aggregate with a combination of analkali metal phosphate and an alkylolammonium salt of a polyfunctionalpolymer to form a lightweight aggregate wetted out by the combination ofan alkali metal phosphate and an alkylolammonium salt of apolyfunctional polymer, and combining the wetted out lightweightaggregate with a resin dispersion to produce the lightweight finishcomposition.

A method of finishing a wall is provided which comprises the steps ofcombining lightweight aggregate with a combination of an alkali metalphosphate and an alkylolammonium salt of a polyfunctional polymer toform a lightweight aggregate wetted out by the combination of an alkalimetal phosphate and an alkylolammonium salt of a polyfunctional polymer,combining the wetted out lightweight aggregate with a resin to produce alightweight finish composition, and applying the lightweight finishcomposition to the wall.

DETAILED DESCRIPTION

A lightweight finish composition is provided that comprises a resindispersion, a combination of an alkali metal phosphate, and analkylolammonium salt of a polyfunctional polymer and lightweightaggregate. The lightweight aggregate is used to replace at least aportion of the standard aggregate component in finish compositions andhas a density and weight that is less than sand. The combination of thealkali metal phosphate and alkylolammonium salt of a polyfunctionalpolymer is used to stabilize the lightweight finish composition bypreventing the generally porous lightweight aggregate from absorbing thewater of the finish composition.

The prevention of water absorption by the lightweight finish compositionis provided by the combination of the surfactants, alkali metalphosphate and alkylolammonium salt of a polyfunctional polymer. Thecombination “we ts out” lightweight aggregate such as glass spheres andprovides lightweight aggregate that does not substantially absorb waterfrom the lightweight finish composition, thus preventing a substantialincrease in the viscosity of a finish composition. Therefore, withoutany precoating of the lightweight aggregate, a stable lightweight finishcomposition is produced such that one week after producing thelightweight finish composition the viscosity as measured in paste units(PU) does not measure more than about 140 paste units and does notdeviate by more than about 7 paste units in subsequent measurements. Incertain embodiments the viscosity of the lightweight finish compositionas measured at six weeks after combining the resin dispersion, acombination of an alkali metal phosphate, and an alkylolammonium salt ofa polyfunctional polymer and lightweight aggregate is less than about130 paste units (PU). The lightweight finish composition is “produced”when the resin dispersion, a combination of an alkali metal phosphate,and an alkylolammonium salt of a polyfunctional polymer and lightweightaggregate are combined.

“Wet ting or wetted out” is a term common in the industry that indicatesthe air void volume of a solid substance or particle has been completelyor substantially filled with a liquid. Additionally, the properties ofthe lightweight aggregate can increase the coverage of the finishcomposition by improving the handling and application characteristics ofthe lightweight finish composition.

The lightweight finish composition retains the texture, appearance anddurability characteristics of existing finishes. The composition can beof various colors and is easily applied to an exterior and/or interiorsurface, providing uniform durable coverage and having the look and feelof the desired texture.

The lightweight finish composition can reduce the weight of a 5-gallonpail from 70 pounds to 45-50 pounds and provides the same surface areacoverage rate. In certain embodiments at least 50% of the volume of thestandard aggregate such as silica sand or gravel is replaced withlightweight aggregate. The wetting out of the lightweight aggregate alsospeeds up the manufacturing process by eliminating the need forprecoating the lightweight aggregates with a liquid impervious coating,such as a silicone.

Lightweight aggregates are aggregate materials that have a density andweight that is less than those of sand (which is a density less thanabout 22 pounds per gallon). They provide strength and in certainembodiments, texture to the finish composition. The lightweightaggregate may be at least one of perlite, vermiculite, fly ash, silicaspheres, microballoons, extendospheres, expanded clay, or pumice stonepowder, or the like. In certain embodiments, the silica spheres are atleast one of glass spheres or ceramic spheres, such as those availablefrom SISCOR, Toronto, Canada.

Surfactants are additives which reduce surface tension, and may formmicelles to thereby improve wetting, help disperse pigments, inhibitfoam, or emulsify. While not being limited to theory, it is believedthat the surfactant combination of alkali metal phosphate andalkylolammonium salt of a polyfunctional polymer lowers the surfacetension of the water such that the water is able to fill the voids inthe lightweight aggregate. In certain embodiments, the alkali metalphosphate is potassium tripoly phosphate (KTPP) and the alkylolammoniumsalt of a polyfunctional polymer is at least one of an alkylolammoniumsalt of a polyacrylate or an alkylolammonium salt of a polymethacrylate.An example of an alkylolammonium salt of a polyfunctional polymer isDisperbyk® 187 produced by BYK Chemie GmbH of Wesel, Germany.

Resin dispersions may comprise acrylic polymers which are aqueousdispersions of polymers, copolymers, or terpolymers of acrylic acid,acrylic acid ester, methacrylic acid, methacrylic acid ester, styreneacrylic acid, styrene acrylic acid ester, acrylonitrile, non-acrylicpolymers such as polyvinyl acetate, styrene butadiene or mixturesthereof. Polymers that may be used can have greater or lesserflexibility depending upon the desired properties of the final finishproduct. A highly flexible latex will provide, for example, anelastomeric finish.

In addition to lightweight aggregate, alkali metal phosphate,alkylolammonium salt of a polyfunctional polymer and resin dispersions,the lightweight finish composition may also contain components such assolvents, coalescing agents, thickening agents, defoamers,preservatives, flash rust inhibitor, fillers, pigments, or standardaggregate.

A solvent is a liquid and can include odorless mineral spirits andcoalescents. Solvents aid in the development and formation of a film bythe polymer in the curing process of the coating. They can be used inthe manufacture of a coating to dissolve or disperse the film formingconstituents. After application the solvent evaporates during drying andtherefore does not become part of the dried film. A coalescing agent isa solvent with a high boiling point which, when added to a coating, aidsin film formation via temporary plasticization (softening) of the liquidvehicle Coalescing agents may include diethylene-glycol ethyl ether,diethylene glycol ethyl ether acetate, hexylene glycol, and2-butoxyethanol acetate, and the like. Suppliers of coalescents includeEastman Chemical—Perth Amboy, N.J., Dow Chemical—Midland, Mich. andUnion Carbide—Houston, Tex.

Another solvent is odorless mineral spirits, which is a clear liquidsolvent that is added to reduce stickiness in application. The additionof odorless mineral spirits lowers the surface tension of the coatingwhich allows for a slower cure rate immediately after application to asurface.

A thickening agent, also referred to as a rheology modifier, is anymaterial used to thicken a liquid and/or an additive used to thicken(increase viscosity) or modify the rheology of a coating. The thickeningagent increases the viscosity of the lightweight finish composition toprovide a consistency which allows the application of a single thickfilm or multiple applications to build up a thick film on a verticalsurface. The thickening prevents sagging of the thick film of thelightweight finish composition on a vertical surface prior to set up ordrying.

Thickening agents that may be used include alkali soluble emulsions,hydrophobically modified alkali soluble emulsions, alginates,hydroxyethyl cellulose, hydrophobically modified hydroxyethyl cellulose,hydrophobically modified polyurethanes, acrylamides, and hydrophobicallymodified polyacrylamides. In certain embodiments thickening agents mayinclude alkali soluble emulsions, hydrophobically modified alkalisoluble emulsions, and hydroxyethyl cellulose. Suppliers of thickeningagents that can be used are Rohm and Haas—Philadelphia, Pa. and UnionCarbide—Houston, Tex.

A defoamer is an additive used to reduce or eliminate foam formed in acoating or a coating constituent. Examples of defoamers are mineral oilbased defoamers, such as silica filled polymethylsiloxane and NOPCO®NXZproduced by Henkel Corporation—Gulph Mills, Pa. Further examples ofcommercially available defoamers include products available fromCrucible Chemical Company—Greenville, S.C.

A preservative may be a biocide which is used to prevent spoilage causedby bacterial growth in a coating that can cause odor or produce enzymesthat can break down defoamers, coalescing agents, dispersants,stabilizers and thickening agents such as cellulosic thickeners used inaqueous paints and coatings. The addition of a biocide will contributeto preventing gas formation and foul odor, along with avoiding adverseeffects on viscosity and stability. Examples of preservatives are aminoalcohols, such as NUOSEPT®91 produced by International SpecialtyProducts—Wayne, N.J., DOWICIL™ 75 and DOWICIL™ QK-20 manufactured by TheDow Chemical Company—Midland, Mich. Other companies providingcommercially available biocides include Troy Chemical—Hackensack, N.J.and CreaNova—Piscataway, N.J. In certain embodiments, the preservativemay be a fungicide or a mildewcide which may be included in thecomposition instead of or in addition to a biocide. The addition of afungicide or mildewcide helps with resistance to fungal growth of thecoating on the wall. Commercially available fungicides and mildewcidescan be obtained from Troy Chemical—Hackensack, N.J.,CreaNova—Piscataway, N.J. and Rohm and Haas—Philadelphia, Pa. Otherbiocides and fungicides include halogenated acetylene alcohols, diphenylmercuric dodecenyl succinate, o-phenylphenol and its sodium salt,tri-chlorophenols and their sodium salts.

A flash rust inhibitor is an additive used to inhibit the corrosion thatoccurs during the drying process of a water-based coating. Examples offlash rust inhibitors generally used in the industry are sodium benzoateand sodium nitrite.

Fillers/pigments are finely ground, natural or synthetic, inorganic ororganic, insoluble dispersed particles (such as powder) which, whendispersed in a liquid vehicle to make a coating, may provide, inaddition to color, many of the properties of the coating such asopacity, hardness, durability, etc. Additionally, fillers may be addedto lower the cost of the lightweight finish composition. Fillers, alsoreferred to as extenders, which may be used include clay, mica andwollastonite.

Clay fillers may include fine china clay/aluminum silicate fillers. Forexample, Kaofine™ is a coating clay that is available from the ThieleKaolin Company of Sandersville, Ga. In addition, other commerciallyavailable clay fillers are available from Huber EngineeredMaterials—Atlanta, Ga. In certain embodiments coarse fillers are usedand may be calcium carbonate or silica flour of a 200-mesh size (oraverage of 75 microns).

In certain embodiments colored or white pigments including mineralproducts which can be used as fillers and extenders may be used. Amongthe pigments that may be used are the various water insoluble organicand inorganic paint pigments which include, but are not limited to, ironoxides, titanium dioxide, zinc oxide, phthalocyanine blue and green,lead chromate, barium sulfate, zinc sulfide, silica, calcium carbonate,chrome green, iron blues and magnesium silicate (talc). Pigmentdispersing agents, including but not limited to, tetrasodiumpyrophosphate, lecithin, gum Arabic, sodium silicate, various watersoluble soaps, aliphatic and aromatic sulfonates, the aliphaticsulfates, various polyethers and ether alcohol concentrates and thelike, may be added to enhance the dispersion of the pigments.

Standard aggregates are inert solid mineral containing materials, suchas natural sand, manufactured sand, gravel, and the like. Aggregates aresolid granular particles which may impart surface texture to the driedlayer of the exterior finishing composition. Further, the size of theaggregate may be used to determine the minimum applied thickness of theexterior finishing composition, especially for application by trowel.Suitable aggregates include sand and stone chips such as marble chipsand granite chips.

The lightweight finish composition may contain other components such asemulsifiers; dispersants; curing agents such as organosilanes, epoxies,and isocyanates; plasticizers; fibers such as polyethylene fiber,wollastonite, cellulose fiber, and glass fiber; and pH modifiers such assodium hydroxide, potassium hydroxide, 2-methyl-1-propanol, and ammonia.

In one embodiment the lightweight finish composition comprises an alkalimetal phosphate, an alkylolammonium salt of a polyfunctional polymer,lightweight aggregate, and a resin dispersion wherein the combination ofthe alkali metal phosphate and alkylolammonium salt of a polyfunctionalpolymer provides stability to the lightweight finish composition bywetting out the lightweight aggregate such that one week after producingthe lightweight finish composition the viscosity as measured in pasteunits (PU) does not measure more than about 140 paste units and does notdeviate by more than about 7 paste units in subsequent measurements. Incertain embodiments the alkali metal phosphate may comprise potassiumtripoly phosphate and the alkylolammonium salt of a polyfunctionalpolymer may comprise at least one of an alkylolammonium salt of apolyacrylate, or an alkylolammonium salt of a polymethacrylate. Thelightweight aggregate may comprise at least one of perlite, vermiculite,fly ash, silica spheres, microballoons, extendospheres, expanded clay,or pumice stone powder. In certain other embodiments the silica spheresare at least one of glass spheres or ceramic spheres. The resindispersion may comprise acrylic polymers which are aqueous dispersionsof polymers, copolymers, or terpolymers of acrylic acid, acrylic acidester, methacrylic acid, methacrylic acid ester, styrene acrylic acid,styrene acrylic acid ester, acrylonitrile, non-acrylic polymers such aspolyvinyl acetate, styrene butadiene or mixtures thereof.

The lightweight finish composition may be used in exterior and interiorapplications such as multilayered exterior wall systems, including EIFS.The lightweight finish composition may be applied onto horizontalsurfaces as well as vertical surfaces.

Various methods may be used to apply the lightweight finish compositionincluding troweling, spraying with air or airless hopper guns, brushing,rolling extruding, and the like.

A “paste unit” (PU) is defined as a viscosity measurement made with aStormer viscometer using a spindle with two thin bars extending from acentral shaft.

To counter the tendency of glass spheres to absorb water andsubstantially thicken compositions, several samples were prepared tostabilize the lightweight finish composition by using a combination ofalkali metal phosphate and alkylolammonium salt of a polyfunctionalpolyacrylate, to wet out the lightweight aggregate.

The samples were prepared using a ribbon blender or Schold mixer. Thelightweight finish composition may be prepared by admixing thecomponents using conventional mixing methods known in the art, includingpaddle type mixers, high speed dispersators, and ribbon blenders. Toprepare the lightweight aggregate, water, alkali metal phosphate,alkylolammonium salt of a polyfunctional polyacrylate and glass sphereswere first added to the blender/mixer followed by the components listedbelow. All samples tested were prepared using the basic finishformulation shown in Table 1: TABLE 1 Component Wt (lb) Vol (gal) Water10.2 1.2 Mineral Oil Based Defoamer 0.15 0.02 Silica Spheres 11.2 3.4Acrylic Polymer 26 2.94 Silica Sand 27 1.22Wt (lb)—weight in poundsVol (gal)—volume in gallons

Results of the tests are set forth in Table 2. TABLE 2 Initial ViscosityViscosity Viscosity Viscosity Viscosity ASPP AMP Viscosity WPG 1 Day 1week 2 weeks 3 weeks 4 weeks Sample (gm/gal) (gm/gal) (PU) lbs. (PU)(PU) (PU) (PU) (PU) S1 0 0 89 9.6 102 unstable S2 12 4 79 9.5 89 126 134135 128 S3 16 4 82 9.4 89 132 141 140 139 S4 24 8 76 9.7 81 122 131 128135 S5 24 0 79 9.4 91 139 unstable S6 12 8 76 9.7 85 136 137 138 136 S716 6 76 9.3 83 117 129 123 126 S8 16 8 73 9.5 79 115 120 119 119 S9 0 888 9.4 96 136 138 unstable S10 24 4 74 9.4 83 122 125 126 131PU = paste unitWPG = weight per gallonASPP = alkylolammonium salt of a polyfunctional polyacrylateAMP = alkali metal phosphateGm/gal = grams per gallon

Initial viscosity of the sample finish compositions (S1-10) is low,around 70 to 90 PU. Within a couple of days, the samples containinglightweight aggregate that had been wetted out in the presence of alkalimetal phosphate and alkylolammonium salt of a polyfunctionalpolyacrylate (S2-4, S6-8, and S10) had stable viscosities over a periodof time. This is in comparison to the samples that were not stable overtime, which contained neither ASPP or AMP (S1), or solely AMP (S5) orASPP (S9). Samples S1, S5, and S9 were listed in Table 2 as unstablewhen no more measurements could be obtained, which generally indicated aviscosity of above 140 PU's. TABLE 3 Component Wt (lb) Vol (gal) Water10.2 1.2 Mineral Oil Based Defoamer 0.15 0.02 Silica Spheres 11.2 3.4Acrylic Polymer 26 2.94 Silica Sand 27 1.22 ASPP 0.6 0.07 AMP 0.3 0.01Wt (lb)—weight in poundsVol (gal)—volume in gallonsASPP = alkylolammonium salt of a polyfunctional polyacrylateAMP = alkali metal phosphate

All samples tested in Table 4 were prepared as described in Table 1 andcontained the following finish formulation shown in Table 3. Applicationtesting of the textured finish compositions described in Table 3 showedgood application properties and texture. TABLE 4 Samples S11 S12 S13Initial Visc. 71 PU 83 PU 87 PU PH 10.1 10.1 10.1 WPG 9.5 8.9 9.9 DryingTime RT 4 hrs 6 hrs 4 hrs 40 F. 16 hrs 18.5 hrs 16 hrs Wash-off (40 F.)Pass pass pass Coverage per ft² 0.35 lbs. 0.38 lbs. 0.33 lbs. per 45lbs. 129 ft² 118 ft² 136 ft² per 50 lbs. 143 ft² 132 ft² 152 ft² StorageStability 1 day 79 PU 91 PU 100 PU 1 week 120 PU 129 PU 127 PU 2 weeks119 PU 127 PU 129 PU 3 weeks 117 PU 125 PU 125 PU 4 weeks 121 PU 132 PU126 PU Water Absorption 24 hrs 12.2% 14.1% 12.5% 48 hrs 12.5% 14.4%12.7% Water Pick Up (lb./ft²) 0.5 hr. 0.0610 0.0729 0.0647 1 hr. 0.07190.0883 0.0741 2 hr. 0.0801 0.0985 0.0838 3 hr. 0.0834 0.1051 0.0868 4hr. 0.0873 0.1071 0.0903 5 hr. 0.0893 0.1108 0.0916 6 hr. 0.0895 0.10980.0926 7 hr. 0.0879 0.1083 0.0909 8 hr. 0.0873 0.1049 0.0901 24 hr.0.0805 0.0911 0.0844 48 hr. 0.0877 0.0938 0.0885RT = room temperatureWPG = weight per gallonPU = paste unit

The samples (S11-S13) maintained a low viscosity over time with littleincrease in PU noted after 1 week of storage. Additionally, the coverageper square foot (ft²) of the samples was improved over finishcompositions containing standard aggregate, which average 0.5 pounds perft² coverage.

It will be understood that the embodiment(s) described herein is/aremerely exemplary, and that one skilled in the art may make variationsand modifications without departing from the spirit and scope of theinvention. All such variations and modifications are intended to beincluded within the scope of the invention as described hereinabove.Further, all embodiments disclosed are not necessarily in thealternative, as various embodiments of the invention may be combined toprovide the desired result.

1. A lightweight finish composition comprising: a) lightweight aggregatewetted out by the combination of an alkali metal phosphate and analkylolammonium salt of a polyfunctional polymer; and b) a resindispersion wherein the combination of the alkali metal phosphate and thealkylolammonium salt of a polyfunctional polymer provides stability tothe lightweight finish composition by wetting out the lightweightaggregate such that one week after producing the lightweight finishcomposition the viscosity as measured in paste units (PU) does notmeasure more than about 140 paste units and does not deviate by morethan about 7 paste units in subsequent measurements.
 2. The compositionof claim 1 wherein the alkali metal phosphate is potassium tripolyphosphate.
 3. The composition of claim 1 wherein the alkylolammoniumsalt of a polyfunctional polymer is at least one of an alkylolammoniumsalt of a polyacrylate or an alkylolammonium salt of a polymethacrylate.4 The composition of claim 1 wherein the alkali metal phosphate ispresent in an amount of from about 0.1% to about 0.9% and thealkylolammonium salt of a polyfunctional polymer is present in an amountof from about 0.1% to about 0.9% by weight of the lightweight finishcomposition.
 5. The composition of claim 1 wherein the lightweightaggregate is at least one of perlite, vermiculite, fly ash, silicaspheres, microballoons, extendospheres, expanded clay, pumice stonepowder or combinations thereof.
 6. The composition of claim 5 whereinthe silica spheres are at least one of glass spheres or ceramic spheres.7. The composition of claim 1 wherein the resin dispersion comprises atleast one of an acrylic polymer, a non-acrylic polymer or mixturesthereof; wherein the acrylic polymer, if present, is at least one ofacrylic acid, acrylic acid ester, methacrylic acid, methacrylic acidester, styrene acrylic acid, styrene acrylic acid ester, acrylonitrileor mixtures thereof; and, the non-acrylic polymer, if present, is atleast one of polyvinyl acetate, styrene butadiene or mixtures thereof.8. The composition of claim 1 further comprising at least one ofemulsifiers, curing agents, dispersants, plasticizers, fibers,thickening agents, coalescing agents, pH modifiers, defoamers, rustinhibitors, fillers, pigments, pigment dispersing agents, solvents,preservatives or aggregates.
 9. The composition of claim 1 wherein aftersix weeks from combining the alkali metal phosphate, alkylolammoniumsalt of a polyfunctional polymer, lightweight aggregate and resindispersion, the viscosity of the unset composition is less than about130 paste units.
 10. The composition of claim 1 wherein the compositionhas a weight of about 45 to about 50 pounds per 5 gallons volume.
 11. Amethod of producing a lightweight finish composition comprising: a)combining lightweight aggregate with a combination of an alkali metalphosphate and an alkylolammonium salt of a polyfunctional polymer toform a lightweight aggregate wetted out by the combination of the alkalimetal phosphate and the alkylolammonium salt of a polyfunctionalpolymer; and b) combining the wetted out lightweight aggregate with aresin dispersion to produce the lightweight finish composition.
 12. Themethod of claim 11 wherein the alkali metal phosphate is potassiumtripoly phosphate.
 13. The method of claim 11 wherein thealkylolammonium salt of a polyfunctional polymer is at least one of analkylolammonium salt of a polyacrylate or an alkylolammonium salt of apolymethacrylate.
 14. The method of claim 11 wherein the alkali metalphosphate is combined in an amount of from about 0.1% to about 0.9% andthe alkylolammonium salt of a polyfunctional polymer is combined in anamount of from about 0.1% to about 0.9% by weight of the lightweightfinish composition.
 15. The method of claim 11 wherein the lightweightaggregate is at least one of perlite, vermiculite, fly ash, silicaspheres, microballoons, extendospheres, expanded clay, pumice stonepowder or combinations thereof.
 16. A method of finishing a wallcomprising the steps of: a) combining lightweight aggregate with acombination of an alkali metal phosphate and an alkylolammonium salt ofa polyfunctional polymer to form a lightweight aggregate wetted out bythe combination of the alkali metal phosphate and the alkylolammoniumsalt of a polyfunctional polymer; b) combining the wetted outlightweight aggregate with a resin to produce a lightweight finishcomposition; and c) applying the lightweight finish composition to thewall.
 17. The method of claim 16 wherein the alkali metal phosphate ispotassium tripoly phosphate.
 18. The method of claim 16 wherein thealkylolammonium salt of a polyfunctional polymer is at least one of analkylolammonium salt of a polyacrylate or an alkylolammonium salt of apolymethacrylate.
 19. The method of claim 16 wherein the alkali metalphosphate is present in an amount of from about 0.1% to about 0.9% andthe alkylolammonium salt of a polyfunctional polymer is present in anamount of from about 0.1% to about 0.9% by weight of the lightweightfinish composition.
 20. The method of claim 16 wherein the lightweightaggregate is at least one of perlite, vermiculite, fly ash, silicaspheres, microballoons, extendospheres, expanded clay, pumice stonepowder or combinations thereof.